DE850148C - Locking element for feedback locks - Google Patents

Description

Locking element for feedback locks In echo and feedback locks blocking elements with real damping are usually used today work, which by an ohmic voltage divider in the form of circuit arrangements is achieved with controlled rectifiers. These rectifier arrangements are biased in a known manner by a control current, and the blocking or passage effect depends on the polarity of this control current. In order to receive a To achieve high blocking attenuation, it is necessary to carefully adjust the blocking elements Symmetrize what with the manufacturing irregularities of the rectifier cells causes certain difficulties. Another disadvantage is that Uneven aging of the rectifiers used reduces the blocking attenuation.

It is also known to block and open transmission paths to cause feedback locks through relay contacts. However, this is the way to go leave this blocking switching means because of the troublesome long response and switching times. Also the method of blocking by shifting the grid potential of the amplifier tubes has changed due to the wide transition area between blocking and letting through not proven, so that practically everywhere the aforementioned form of lock with controlled Damping is used, although it does not meet the requirements able to solve to full satisfaction.

The invention provides a barrier arrangement for echo and feedback barriers created using a principle previously unknown for this purpose brings and thereby the advantage of a great simplification of the development and production such blocking circuits brings with it. According to the invention is to achieve the required Blocking attenuation the attenuation of a filter in the blocking range used. In order to be able to take advantage of this blocking attenuation, it is only necessary to convert the transmission area to be blocked into the blocked area, which is an in a known manner by means of modulators controlled by a carrier frequency can.

While so far the control unit to control the attenuators had to reverse the polarity of a control current, it must here depending on the position of the feedback block switch a carrier current on or off, which does not cause any difficulties. The choice of the carrier frequency and its frequency constancy is not restricted to narrow limits rather, you have great freedom in the choice of frequency, whereas in the previous blocking circuits have considerably stricter requirements for the control current had to be asked. The same modulator circuits can be used as modulators and demodulators are used, preferably the ring modulators known from carrier frequency technology. Both modulators and filters are easy to manufacture, and the same, for carrier frequency systems mass-produced components are used. The two main requirements a locking member must meet are: i. high locking effect, 2. low gear click.

The blocking attenuation of the filter is easier to reach the desired value, z. B. io N, to bring as that of a frequency-independent bridge barrier, there no balancing is required. The crack symmetry is a question of Balancing the modulators. However, this is due to the carrier frequency technology well known. The switched carrier residue generates a frequency spectrum, its Energy maximum now lies with the wearer, i.e. outside the language area. At the DC crackling, on the other hand, falls this spectrum mainly with the language area together. A high-pass filter is expediently used as a blocking filter, so that Blocking element is open when the control unit is supplying a carrier current, and blocked, when the control unit does not emit any carrier current.

The figure shows a schematic representation of an embodiment an echo and feedback barrier arrangement according to the invention.

The figure only shows the actual locking elements and the assignment of the control unit to them again. The circuit details are not shown in detail, since circuits known per se can be used for all elements. The entire lock assembly consists of two blocking elements, one of which, Sp "in the upper transmission path, the other, SPE, is switched into the lower receive path, and from the control unit SIG. The circuit structure of this device is also arbitrary, preferably works this device but according to the known differential control principle. The resulting Control currents or voltages are only used here to operate an electronic one Switch used st, the input of a carrier current generator on the one or another blocking element switches.

each blocking element consists of a series connection of a modulator Ml or M2, a filter HP or HP, and a demodulator Dt or D2. Modulators and demodulators are preferably equal to each other and are controlled by the carrier frequency f "controls the transmission band in the modulator, the passage of which through the Filter by its blocking attenuation is prevented in the pass band of the filter shift, whereupon the demodulator shifts back to the original frequency position he follows.

The invention is not restricted to the exemplary embodiment described. In particular, a bandpass filter can also be used as a filter. In this case the mode of operation depends on the position of the passband in relation to the normal transmission range away.

Claims (5)

PATENT CLAIMS: i. Barrier arrangement for echo and feedback barriers, characterized in that the attenuation of a filter in the blocking range is used to achieve the required blocking attenuation. 2. Lock arrangement according to claim i, characterized in that the switching from locking to opening and vice versa by converting the transmission band into the cut-off or pass band of the filter takes place with the help of a carrier frequency. 3. Lock arrangement according to claim i and 2, characterized by the series connection of a modulator (Mt or M2), one Filters (HP, or HP,) and a demodulator (D, or DZ) as a blocking element in each of the two transmission paths and by a preferably differential controlled Control unit (StG), which contains a carrier frequency generator, its output voltage depending on the switchover to one or the other caused by the resulting control current other blocking element is switched. 4. Lock arrangement according to claim i to 3, characterized characterized in that a high-pass filter serves as the filter in the normal transmission range has a high blocking attenuation. 5. lock arrangement according to claim i to 3, characterized characterized in that modulator arrangements of the same type are used as modulators and demodulators, preferably ring modulators can be used.